9 (a) A student investigates the relationship between force and acceleration for a trolley on a runway - Edexcel - GCSE Physics - Question 9 - 2018 - Paper 1

The mass of the moving system can be kept constant by ensuring that the mass on the weight hanger remains the same throughout the experiment. This might involve using a specific weight that is not changed or allowing the mass to act directly on the trolley without any additional weights being added or subtracted during the experiment.

To compensate for the effects of frictional forces, the student could raise one end of the runway. This action helps reduce the overall friction experienced by the trolley as it rolls. Additionally, using lubricants on the surface of the runway or employing low-friction wheels will minimize the frictional force affecting the trolley's motion, allowing for a more accurate measurement of the relationship between force and acceleration.

Momentum is conserved in the collision because the total momentum before the collision is equal to the total momentum after the collision. According to Newton's third law, the forces exerted by the two objects during the collision are equal and opposite, resulting in no net external force acting on the system. Thus, using Newton's second law, we can express the momentum change:

ext{Force} = rac{ ext{change in momentum}}{ ext{time}}

This dictates that any changes in momentum during the collision must balance out, preserving total momentum.